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This repository contains samples for a presentation about using C# and .NET in the browser using WebAssembly with Blazor.
👋🏻 Introduction/Overview of Blazor
This repository is continuously built and deployed using free Azure Pipelines. If you're interested in how it was setup and configured to build automatically and deploy to low cost Azure Storage Static Websites, read Deploy WebAssembly from GitHub to Azure Storage Static Websites with Azure Pipelines.
🎦 You can download the related PowerPoint presentation here.
To see how Blazor compares to other SPA frameworks like Angular, read: Angular vs. Blazor.
This section contains step-by-step instructions to execute each of the demos.
The following should be installed for the demos to work:
- emscripten for the
asm.js
and WebAssembly demos - http-service (node.js) to serve the "primes" example site (any simple web server will do)
- Blazor has full instructions for installing and using Blazor.
The current version used in this repo is 3.2.0-preview1.20073.1
.
Navigate into the primes directory. First, show the speed of the JavaScript version.
cat primes-js.js
node primes-js.js
Next, show the C code.
cat primes.c
Then, compile the C code to asm.js:
emcc primes.asm.c -s WASM=0 -Os -o primes.asm.js
Show the expanded code for reference, then run the asm.js version:
cat primes-asm.js
node primes-asm.js
Show the C code:
cat primes.wasm.c
Compile the C code to WebAssembly:
emcc primes.wasm.c -s WASM=1 -Os -o primes.wasm.js
Use a simple server like http-server
to serve files in the directory. Navigate to primes.html
:
http://localhost:8080/primes.html
Open the console and show the time with JavaScript vs. WebAssembly.
Create a new Blazor project with .NET Core hosting. Run the application and step through the tabs.
- Note the counter resets to zero when you return
- Show the
Shared
project defines aWeatherForecast
class that is shared between the client and the server - Demonstrate service registration in
Startup
- Open
Startup
on the client for similar services - Walk through logic for
Counter.razor
- Point out that
FetchData.razor
uses theHttpClient
but it is injected for the correct configuration - Activate network debugging in the browser. Refresh and show the DLLs being loaded
Create a new Blazor project (no hosting, client only).
-
Under
Shared
create a Razor view component and name itLabelSlider.razor
-
Paste the following html:
<input type="range" min="@Min" max="@Max" @bind="@CurrentValue" /> <span>@CurrentValue</span>
-
In a
@code
block add:[Parameter] public int Min { get; set; } [Parameter] public int Max { get; set; } [Parameter] public int CurrentValue { get; set; }
-
Drop into the
Counter
page:<LabelSlider Min="0" Max="99" CurrentValue="@currentCount"/>
-
Show how the clicks update the slider, but sliding doesn't update the host page. Also note that the value only updates when you stop sliding, and it only updates on the slider and not on the "current count" (although clicking the button will update the slider, the converse isn't true.)
-
Inside
LabelSlider
change the binding to@bind-value="@CurrentValue"
then add an additional@bind-value:event="oninput"
to refresh as it is sliding -
Add an event for the current value changing and implement it (this will replace the existing
CurrentValue
property)private int _currentValue; [Parameter] public int CurrentValue { get => _currentValue; set { if (value != _currentValue) { _currentValue = value; CurrentValueChanged?.Invoke(value); } } } [Parameter] public Action<int> CurrentValueChanged { get; set; }
-
Update the binding to
@bind-CurrentValue
inCounter.razor
-
Run and show it is picking up the value, but not refreshing. Explain we'll cover manual UI refresh later.
Create a new client-only project.
-
In NuGet packages, search for and install
Markdown
here -
In
Index.razor
add the following HTML (remove theSurveyPrompt
):<textarea style="width: 100%" rows="5" @bind="@SourceText"></textarea> <button @onclick="@Convert">Convert</button> <p>@TargetText</p>
-
Add a
@using HeyRed.MarkdownSharp
to the top -
Add a
@code
block:string SourceText { get; set; } string TargetText { get; set; } Markdown markdown = new Markdown(); void Convert() { TargetText = markdown.Transform(SourceText); }
-
Run and show the conversion. Explain that the bindings are "safe" and don't expand the HTML.
-
Create a file under
wwwroot
calledmarkupExtensions.js
and populate it with:window.markupExtensions = { toHtml: (txt, target) => { const area = document.createElement("textarea"); area.innerHTML = txt; target.innerHTML = area.value; } }
-
Reference it from
index.html
underwwwroot
with<script src="./markupExtensions.js"></script>
-
In
index.razor
remove theTargetText
references and inject the JavaScript interop:@inject IJSRuntime JsRuntime
-
Change the paragraph element to a reference:
<p @ref="Target"/>
-
Update the
@code
to call the JavaScript via interopstring SourceText { get; set; } ElementReference Target; Markdown markdown = new Markdown(); void Convert() { var html = markdown.Transform(SourceText); JsRuntime.InvokeAsync<object>("markupExtensions.toHtml", html, Target); }
-
Run and show the goodness. Explain
Convert
could beasync
and await a response if necessary -
Add a class named
MarkdownHost
underShared
:using HeyRed.MarkdownSharp; using Microsoft.JSInterop; namespace LibrariesInterop.Shared { public static class MarkdownHost { [JSInvokable] public static string Convert(string src) { return new Markdown().Transform(src); } } }
-
Re-run the app and from the console type. Be sure to change
LibrariesInterop
to the name of your project:alert(DotNet.invokeMethod("LibrariesInterop", "Convert", "# one\n## two \n* a \n* b"))
-
Explain this can also use
Task
to make it asynchronous
Create a new client-only project.
-
Create a class under
Pages
namedFetchDataBase
(not to be confused with a database)public class FetchDataBase : ComponentBase { [Inject] public HttpClient Http { get; set; } public WeatherForecast[] forecasts; protected override async Task OnInitializedAsync() { forecasts = await Http.GetJsonAsync<WeatherForecast[]> ("sample-data/weather.json"); } public class WeatherForecast { public DateTime Date { get; set; } public int TemperatureC { get; set; } public int TemperatureF { get; set; } public string Summary { get; set; } } }
These are the using statements:
using Microsoft.AspNetCore.Components; using System; using System.Net.Http; using System.Threading.Tasks;
-
Open
FetchData.razor
and remove the@Inject
line and entire@code
block -
Add
@inherits FetchDataBase
after the@page
directive -
Run it and show it working
Create a new client-only project.
-
Add a class named
MainModel
to the rootpublic class MainModel : INotifyPropertyChanged { public event PropertyChangedEventHandler PropertyChanged; private int _age = 30; public int Age { get => _age; set { if (value != _age) { _age = value; PropertyChanged?.Invoke(value, new PropertyChangedEventArgs(nameof(Age))); } } } public int MaximumHeartRate { get { return 220 - _age; } } public int TargetHeartRate { get { return (int)(0.85*MaximumHeartRate); } } }
Add a using for
System.ComponentModel
-
Register the class in
Program
:builder.Services.AddSingleton<MainModel>();
-
Under
Shared
addAge.razor
@inject MainModel Model Age: <span style="cursor: pointer" @onclick="@(()=>Decrement(true))"> <strong> < </strong> </span> <input type="range" min="13" max="120" @bind-value="Model.Age" @bind-value:event="oninput" /> <span style="cursor: pointer" @onclick="@(()=>Decrement(false))"> <strong> > </strong> </span> <span>@Model.Age</span>
-
Add the code block:
void Decrement(bool decrement) { if (decrement && Model.Age > 13) { Model.Age -= 1; } if (!decrement && Model.Age < 120) { Model.Age += 1; } }
-
Then add
HeartRate.razor
underShared
:@inject MainModel Model <div> <p>Your target heart rate is: @Model.TargetHeartRate</p> <p>Your maximum heart rate is: @Model.MaximumHeartRate</p> </div>
-
Add the new controls to
Index.razor
(removeSurveyPrompt
):<Age/> <HeartRate/>
-
Run the app and show that the heart rates aren't updating
-
Add this
@code
code to the bottom ofHeartRate.razor
protected override void OnInitialized() { base.OnInitialized(); Model.PropertyChanged += (o, e) => StateHasChanged(); }
-
Re-run the app and show it working
-
Explain that this can be done at a higher level to automatically propagate across controls
Learn more about: MVVM support in Blazor.
- Open URL in Chrome for any of the apps
- Show
SHIFT+ALT+D
key press - If instructions appear, close all Chrome instances (including in the system tray) and paste the code to run with debugging enabled
- Repeat the key press
- Show a breakpoint and discuss this is very limited for now